Plant photoreceptors and their signaling components compete for binding to the ubiquitin ligase COP1 using their VP-peptide motifs

Lau, Kelvin; Podolec, Roman; Chappuis, Richard; R, Ulm; Hothorn, Michael

doi:10.1101/568618

Cited by 41 publications

(99 citation statements)

References 106 publications

(120 reference statements)

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“…A BLADE‐ON‐PETIOLE 1 (BOP1)‐ and BOP2‐based E3 ubiquitin ligase complex has been shown to ubiqitinate PIF4, thereby affecting photo‐ and thermomorphogenesis (Zhang et al , ); however, involvement of this complex in degradation of PIF4 under UV‐B remains to be demonstrated. Activity of COP1, on the other hand, is a direct target of UVR8 (Favory et al , ; Podolec and Ulm, ; Lau et al , ), and COP1 has been shown to facilitate the stability of PIF family proteins, including PIF4 and PIF5, in the dark (Bauer et al , ; Gangappa and Kumar, ; Pham et al , ). This UVR8‐mediated inhibition of COP1 may thus be linked to degradation of PIF4 and PIF5, although via a currently unknown mechanism.…”

Section: Discussionmentioning

confidence: 99%

Degradation of the transcription factors PIF4 and PIF5 under UV‐B promotes UVR8‐mediated inhibition of hypocotyl growth in Arabidopsis

2019

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Summary Inhibition of hypocotyl growth is a well‐established UV‐B‐induced photomorphogenic response that is mediated by the UV‐B photoreceptor UV RESISTANCE LOCUS 8 (UVR8). However, the molecular mechanism by which UVR8 signaling triggers inhibition of hypocotyl growth is poorly understood. The bZIP protein ELONGATED HYPOCOTYL 5 (HY5) functions as the main positive regulatory transcription factor in the UVR8 signaling pathway, with HY5‐HOMOLOG (HYH) playing a minor role. However, here we demonstrate that hy5 hyh double mutants maintain significant UVR8‐dependent hypocotyl growth inhibition. We identify UVR8‐dependent inhibition of the activities of bHLH transcription factors PHYTOCHROME INTERACTING FACTOR 4 (PIF4) and PIF5 as part of the UVR8 signaling pathway, which results in inhibition of hypocotyl growth. The UVR8‐mediated repression of several hypocotyl elongation‐related genes is independent of HY5 and HYH but largely associated with UVR8‐dependent degradation of PIF4 and PIF5, a process that consequently diminishes PIF4/5 target promoter occupancy. Taken together, our data indicate that UVR8‐mediated inhibition of hypocotyl growth involves degradation of PIF4 and PIF5. These findings contribute to our mechanistic understanding of UVR8‐induced photomorphogenesis and further support the function of PIFs as integrators of different photoreceptor signaling pathways.

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Section: Discussionmentioning

confidence: 99%

Degradation of the transcription factors PIF4 and PIF5 under UV‐B promotes UVR8‐mediated inhibition of hypocotyl growth in Arabidopsis

2019

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“…indicating that the crosstalk between UV-B/UV-A sw and UV-A lw /blue signaling pathways may 561 involve RUPs. In addition, a recent study demonstrated that both UVR8 and CRYs use VP motifs to 562 compete for binding the WD40 domain of COP1 (Lau et al, 2019). Therefore, crosstalk between 563 the two signaling pathways could involve COP1.…”

Section: Transcript Abundance After 6 H and 12 H 481 482mentioning

confidence: 99%

The photoreceptor UVR8 mediates the perception of both UV-B and UV-A wavelengths up to 350 nm of sunlight with responsivity moderated by cryptochromes

Rai

O’Hara

Farkas

et al. 2020

Preprint

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The photoreceptors UV RESISTANCE LOCUS 8 (UVR8) and CRYPTOCHROMES 1 and 2 (CRYs) play major roles in the perception of UV-B (280–315 nm) and UV-A/blue radiation (315–500 nm), respectively. However, it is poorly understood how they function in sunlight. The roles of UVR8 and CRYs were assessed in a factorial experiment with Arabidopsis thaliana wild-type and photoreceptor mutants exposed to sunlight for 6 h or 12 h under five types of filters with cut-offs in UV and blue-light regions. Transcriptome-wide responses triggered by UV-B and UV-A wavelengths shorter than 350 nm (UV-Asw) required UVR8 whereas those induced by blue and UV-A wavelengths longer than 350 nm (UV-Alw) required CRYs. UVR8 modulated gene expression in response to blue light while lack of CRYs drastically enhanced gene expression in response to UV-B and UV-Asw. These results agree with our estimates of photons absorbed by these photoreceptors in sunlight and with in vitro monomerization of UVR8 by wavelengths up to 335 nm. Motif enrichment analysis predicted complex signaling downstream of UVR8 and CRYs. Our results highlight that it is important to use UV waveband definitions specific to plants’ photomorphogenesis as is routinely done in the visible region.

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“…However, the exact structural mechanisms underlying this photoreceptor–COP1–substrate tripartite interaction and how the evolutionarily distinct photoreceptors converge on the single hub protein COP1 remained unclear. In this issue of The EMBO Journal , a study from the Roman Ulm and Michael Hothorn's groups at University of Geneva solved, at least partially, these structure‐function problems (Lau et al , ).…”

Section: A Model Depicting How Photoreceptors Regulate Cop1 To Promotmentioning

confidence: 99%

“…An earlier study showed that three COP1‐interacting proteins bear a common sequence motif, referred to as VP, which contains two amino acids, valine–proline, as the invariable core, and that the VP motif may be a common COP1‐binding site (Holm et al , ). Lau et al () showed that six transcription factors (HY5, HYH, CO, COL3, STO, and HFR1) and three photoreceptors (CRY1, CRY2, and UVR8) all possess the VP motifs. They examined the crystal structures of the complexes of the WD40 domain of COP1 (326 residues) and individual VP motifs (< 10 residues) of those nine COP1‐interacting proteins, demonstrating that the core residues of the VP motifs form the center of the COP1‐binding site, whereas the chemically diverse residues at the −3 and −2 position of the VP motifs act as anchor residues by inserting deeply into the VP‐binding cleft of COP1.…”

Section: A Model Depicting How Photoreceptors Regulate Cop1 To Promotmentioning

confidence: 99%

Photoreceptor signaling: when COP1 meets VPs

Wang

2019

The EMBO Journal

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How structurally distinct photoreceptors regulate evolutionarily diverse transcription factors to modulate common photoresponses is an intriguing question in plant biology. In this issue of The EMBO Journal, Lau et al demonstrate that COP1, the substrate receptor of E3 ubiquitin ligase CUL4COP1‐SPAs, interacts with the diverse VP motif‐containing transcription factors and photoreceptors via its highly plastic WD40 domain. Light‐activated photoreceptors increase their affinity to COP1 to outcompete the COP1‐interacting transcription factors, allowing their accumulation and inducing photomorphogenic development of plants.

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Plant photoreceptors and their signaling components compete for binding to the ubiquitin ligase COP1 using their VP-peptide motifs

Cited by 41 publications

References 106 publications

Degradation of the transcription factors PIF4 and PIF5 under UV‐B promotes UVR8‐mediated inhibition of hypocotyl growth in Arabidopsis

Degradation of the transcription factors PIF4 and PIF5 under UV‐B promotes UVR8‐mediated inhibition of hypocotyl growth in Arabidopsis

The photoreceptor UVR8 mediates the perception of both UV-B and UV-A wavelengths up to 350 nm of sunlight with responsivity moderated by cryptochromes

Photoreceptor signaling: when COP1 meets VPs

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